2. • Manufactured from milk .A water-in-oil emulsion
Butter
Nutrient Explanation
Protein • A little HBV protein in butter
Fat • Animal fat (saturated fat)
• The fatty acid is called butyric acid
Carbohydrates • Trace amounts of lactose(milk sugar)
Vitamins • Fat-soluble vitamins A, D & E
Minerals •Traces of calcium & phosphorus
• Sodium & chloride are added during
production
Water • Small amount - 14-16%
3. Composition of Butter
Protein Fat Carbohydra
te
Vitamins Minerals Water
1% 82% 0.5% 0.5% 2% 14%
Must contain at least 80% fat to be called
butter, by law.
Production of Butter
1. Cream(fat from milk) is pasteurised
2. Cream is cooled & the fat hardens
3. Cream is churned & the fat clumps together
4. The liquid part, called buttermilk, is drained off
5. Salt (1.5 %) is added
6. The butter is packed for sale
4. Types of Butter
Type Use
1. Salted: 2% salt is added Baking, table use
2. Unsalted: No salt added Low sodium diets, baking
3. Spreadable Butter: Churned for longer
periods of time to allow for the fat
globules to separate. This allows for a
more spreadable product
Sandwiches
4. Low-fat: Fat content reduced by 50% Low kilocalorie diets
5. Concentrated Butter:
made up of 84% fat
Sandwiches ……………..
5. Cream
Milk is an oil-in-water emulsion.
Cream is made from the fat of milk
Nutrient Explanation
Protein • Approx. 3% in cream
• HBV (animal protein) called casein
Fat • Varying quantities ofsaturated fat
• Depends on the type of cream
Carbohydrate • 2-4% called sugar lactose
Vitamins • Small amounts of B group vitamins
• A & D
Minerals • Calcium
Water • Varies according to type
6. Production of cream
1. Milk is heated to 50°C
2. It is then subjected to centrifugal force which
separates the upper cream layer from the lower
layer of skimmed milk
3. The cream is heated using pasteurisation,
sterilisation or ultra-heat treatment
7. Types of Cream
Type of cream Use
Half Cream 12% fat • Pouring cream used in desserts
Single Cream 18% fat • Pouring cream used in desserts & sauces
Double Cream 48% fat
• Decoration of desserts
Whipping Cream 35% fat
• Decoration of desserts
UHT Cream 35% fat
• Trifles
Sour Cream 18% fat • In savoury dishes, e.g. sweet & sour
Cream Alternatives:
a) Crème Fraiche 30% fat
• A mixture of soured cream & yoghurt or buttermilk
b) Fromage frais 13% fat • Blend of soft cheeses
c) Greek Yoghurt 10% fat •Thick creamy yoghurt used instead of cream.
8. Nutritive Value
Nutrient Explanation
Protein •HBV
Fat • Saturated fat
•Amount depends on the type of milk : low
fat, skimmed or full-fat
Carbohydrate • Milk sugar lactose
• Can be introduced by the addition of fruit
& sweeteners
Vitamins •Fat – soluble: A & D
•Water – soluble: B1 thiamine, B2
riboflavin and niacin
Minerals • Calcium
•Small amounts of potassium & phosphorus
9. Dietetic Value/contribution to the diet
Dietetic Value
Yoghurt contains HBV protein
necessary for growth,
therefore it is a suitable food
for children & teenagers
Yoghurt is easily digested & is
suitable for the elderly &
convalescents
Yoghurt contains HBV protein
necessary to repair cells,
essential for those recovering
from illness
Low-fat yoghurts are available
& are particularly suitable for
those on low-kilocalorie diets
Economic Value
Yoghurt can be
used in a wide
variety of dishes
Yoghurt is
available in a wide
variety of
flavours
Yoghurt is
relatively
inexpensive to
buy
10. Guidelines for storing yoghurt
Store in a refrigerator (below 5˚C)
Use within the best before date
Bio-yoghurts contain additional bacteria cultures
such as lactobacillus casei, which manufacturers
claim support the natural bacteria in the
intestines & help to regulate digestion
11. Uses of
yoghurt
On its own
Smoothies
Desserts –
fruit salad
In desserts -
cheesecake
Dips
Savoury dishes -
curry
12. Classification of cheese
Hard cheese Semi-hard
cheese
Soft cheese Processed
cheese
•Cheddar
•Parmesan
•Swiss
•Stilton
•Gouda
•Cottage
•Brie
•Mozzarella
•Feta
•Cheese
spread
•Cheese
slices
•Smoked
cheese
Type Protein Fat Carb. Vitamins Minerals Water
•Hard
•Soft
26%
14%
33%
4%
0%
4%
A, B2
A, B2
Calcium
Calcium
37%
77%
Average Composition of Cheese
13. Nutritive Value/Nutritional Significance
Nutrient Explanation
Protein • HBV caseinogen
Fat • Saturated
• Hard cheese has more than soft cheese
Carb. • None in hard cheese, as they are lost during
processing
• Small proportion in soft cheese of the
disaccharide lactose present
Vitamins • Vitamin A, B2(riboflavin) & D
• No vitamin C
Minerals •Hard cheese is a very good source of calcium
Water •Hard cheese 33%
•Soft cheese 75%
14. Dietetic Value of cheese
Dietetic Value of cheese
Rich in protein & calcium -
essential for growth in
children, adolescents,
pregnant women & nursing
mothers
High-energy food - suitable
for active people
Cottage cheese (4% fat)
and low-fat types for low-
kilocalorie/low cholesterol/
weight-watching diets
Lacks carbohydrates,
should be eaten with foods
rich in carbohydrate e.g.
brown bread
Economic Value
Versatile, used in a wide
range of dishes
Economical - little or no
waste
Quick & convenient
High energy, nutritious
snack
15. Cheese-Making
1. Milk is pasteurised
2. Lactic acid bacteria is added .This changes lactose(milk
sugar) to lactic acid
3. Milk is warmed to approximately 30°C
4. The enzyme rennet is added milk protein, caseinogen
converts to casein.
The mixture is left for between 30-45 mins until casein
turns to curds(solid) & whey(liquid)
5. Whey is drained off & the curds are chopped
= Cottage cheese
6. Scalding =the curds are heated again (to 40°C) to shrink
them further & the squeeze out more whey.
7. Cheddaring=the curds are cut into blocks & packed on
top of each other to remove any remaining whey.
16. 8. 2% salt is added & more whey is drained off
9. The cheese is pressed into moulds
10. For protection, the cheese is sprayed with hot
water & this forms a rind
11. The cheese is removed from moulds & wrapped in
polythene bags, where it is left to ripen.
Ripening time varies with the type of cheese, e.g.
cheddar cheese is left to ripen for up to one year at
10°C.
Cheddar cheese is produced at this point
12. The cheese is date-stamped, graded & packed
17. Nutrients
1. Fat melts and separates out
2. Protein coagulates – it shrinks and becomes
indigestible, hard & tough
3. Little loss of nutrients
Effects of cooking
Physical Attributes
1. Melts
2. Shrinks and becomes hard and tough
3. When cooked it gives a golden colour to food
4. Easy to overcook – so add it at the end of cooking time
to prevent carbonisation
Micro-organisms
1. Are destroyed
18. Hot snack – cheese on toast
Cold snack - sandwich
Sauce making – cheese sauce
Fillings - omelettes
As dips & spreads
Toppings - pizza
Course at end of meal – cheese board
Protein alternative
Enhances nutritive value of a dish
Culinary uses of cheese
19. Guidelines for buying
cheese
Cheese should be
bought in small
amounts
Cheese should be used
quickly
Pre-packed cheese
should be fully sealed
after opening
Buy cheese from a
hygienic shop
Check the use-by date
Guidelines for storing
cheese
Open cheese should be
wrapped in separate
polythene bags to retain
moisture & flavour
Always store cheese in a
refrigerator
Blue cheese needs air and
therefore should be
stored in a polythene
Cheese is best eaten at
room temperature